plugins/sysml14/org.eclipse.papyrus.requirements.sysml14.boilerplatetext/src-gen/org/eclipse/papyrus/requirements/sysml14/parser/antlr/internal/InternalBoilerplateTextLexer.java - gerrit/papyrus/org.eclipse.papyrus-requirements - Git at Google

 package org.eclipse.papyrus.requirements.sysml14.parser.antlr.internal;

 // Hack: Use our own Lexer superclass by means of import.
 // Currently there is no other way to specify the superclass for the lexer.
 import org.eclipse.xtext.parser.antlr.Lexer;


 import org.antlr.runtime.*;
 import java.util.Stack;
 import java.util.List;
 import java.util.ArrayList;

 @SuppressWarnings("all")
 public class InternalBoilerplateTextLexer extends Lexer {
     public static final int RULE_STRING=4;
     public static final int RULE_SL_COMMENT=8;
     public static final int T__19=19;
     public static final int T__15=15;
     public static final int T__16=16;
     public static final int T__17=17;
     public static final int T__18=18;
     public static final int T__11=11;
     public static final int T__12=12;
     public static final int T__13=13;
     public static final int T__14=14;
     public static final int EOF=-1;
     public static final int RULE_ID=5;
     public static final int RULE_WS=9;
     public static final int RULE_ANY_OTHER=10;
     public static final int RULE_INT=6;
     public static final int RULE_ML_COMMENT=7;
     public static final int T__20=20;

     // delegates
     // delegators

     public InternalBoilerplateTextLexer() {;}
     public InternalBoilerplateTextLexer(CharStream input) {
         this(input, new RecognizerSharedState());
     }
     public InternalBoilerplateTextLexer(CharStream input, RecognizerSharedState state) {
         super(input,state);

     }
     public String getGrammarFileName() { return "InternalBoilerplateText.g"; }

     // $ANTLR start "T__11"
     public final void mT__11() throws RecognitionException {
         try {
             int _type = T__11;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:11:7: ( ',' )
             // InternalBoilerplateText.g:11:9: ','
             {
             match(',');

             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__11"

     // $ANTLR start "T__12"
     public final void mT__12() throws RecognitionException {
         try {
             int _type = T__12;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:12:7: ( 'if' )
             // InternalBoilerplateText.g:12:9: 'if'
             {
             match("if");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__12"

     // $ANTLR start "T__13"
     public final void mT__13() throws RecognitionException {
         try {
             int _type = T__13;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:13:7: ( 'and' )
             // InternalBoilerplateText.g:13:9: 'and'
             {
             match("and");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__13"

     // $ANTLR start "T__14"
     public final void mT__14() throws RecognitionException {
         try {
             int _type = T__14;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:14:7: ( 'while' )
             // InternalBoilerplateText.g:14:9: 'while'
             {
             match("while");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__14"

     // $ANTLR start "T__15"
     public final void mT__15() throws RecognitionException {
         try {
             int _type = T__15;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:15:7: ( 'shall' )
             // InternalBoilerplateText.g:15:9: 'shall'
             {
             match("shall");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__15"

     // $ANTLR start "T__16"
     public final void mT__16() throws RecognitionException {
         try {
             int _type = T__16;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:16:7: ( 'not' )
             // InternalBoilerplateText.g:16:9: 'not'
             {
             match("not");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__16"

     // $ANTLR start "T__17"
     public final void mT__17() throws RecognitionException {
         try {
             int _type = T__17;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:17:7: ( 'allow' )
             // InternalBoilerplateText.g:17:9: 'allow'
             {
             match("allow");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__17"

     // $ANTLR start "T__18"
     public final void mT__18() throws RecognitionException {
         try {
             int _type = T__18;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:18:7: ( 'to' )
             // InternalBoilerplateText.g:18:9: 'to'
             {
             match("to");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__18"

     // $ANTLR start "T__19"
     public final void mT__19() throws RecognitionException {
         try {
             int _type = T__19;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:19:7: ( 'be' )
             // InternalBoilerplateText.g:19:9: 'be'
             {
             match("be");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__19"

     // $ANTLR start "T__20"
     public final void mT__20() throws RecognitionException {
         try {
             int _type = T__20;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:20:7: ( 'able' )
             // InternalBoilerplateText.g:20:9: 'able'
             {
             match("able");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "T__20"

     // $ANTLR start "RULE_ID"
     public final void mRULE_ID() throws RecognitionException {
         try {
             int _type = RULE_ID;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:751:9: ( ( '^' )? ( 'a' .. 'z' | 'A' .. 'Z' | '_' ) ( 'a' .. 'z' | 'A' .. 'Z' | '_' | '0' .. '9' )* )
             // InternalBoilerplateText.g:751:11: ( '^' )? ( 'a' .. 'z' | 'A' .. 'Z' | '_' ) ( 'a' .. 'z' | 'A' .. 'Z' | '_' | '0' .. '9' )*
             {
             // InternalBoilerplateText.g:751:11: ( '^' )?
             int alt1=2;
             int LA1_0 = input.LA(1);

             if ( (LA1_0=='^') ) {
                 alt1=1;
             }
             switch (alt1) {
                 case 1 :
                     // InternalBoilerplateText.g:751:11: '^'
                     {
                     match('^');

                     }
                     break;

             }

             if ( (input.LA(1)>='A' && input.LA(1)<='Z')||input.LA(1)=='_'||(input.LA(1)>='a' && input.LA(1)<='z') ) {
                 input.consume();

             }
             else {
                 MismatchedSetException mse = new MismatchedSetException(null,input);
                 recover(mse);
                 throw mse;}

             // InternalBoilerplateText.g:751:40: ( 'a' .. 'z' | 'A' .. 'Z' | '_' | '0' .. '9' )*
             loop2:
             do {
                 int alt2=2;
                 int LA2_0 = input.LA(1);

                 if ( ((LA2_0>='0' && LA2_0<='9')||(LA2_0>='A' && LA2_0<='Z')||LA2_0=='_'||(LA2_0>='a' && LA2_0<='z')) ) {
                     alt2=1;
                 }


                 switch (alt2) {
             	case 1 :
             	    // InternalBoilerplateText.g:
             	    {
             	    if ( (input.LA(1)>='0' && input.LA(1)<='9')||(input.LA(1)>='A' && input.LA(1)<='Z')||input.LA(1)=='_'||(input.LA(1)>='a' && input.LA(1)<='z') ) {
             	        input.consume();

             	    }
             	    else {
             	        MismatchedSetException mse = new MismatchedSetException(null,input);
             	        recover(mse);
             	        throw mse;}


             	    }
             	    break;

             	default :
             	    break loop2;
                 }
             } while (true);


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "RULE_ID"

     // $ANTLR start "RULE_INT"
     public final void mRULE_INT() throws RecognitionException {
         try {
             int _type = RULE_INT;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:753:10: ( ( '0' .. '9' )+ )
             // InternalBoilerplateText.g:753:12: ( '0' .. '9' )+
             {
             // InternalBoilerplateText.g:753:12: ( '0' .. '9' )+
             int cnt3=0;
             loop3:
             do {
                 int alt3=2;
                 int LA3_0 = input.LA(1);

                 if ( ((LA3_0>='0' && LA3_0<='9')) ) {
                     alt3=1;
                 }


                 switch (alt3) {
             	case 1 :
             	    // InternalBoilerplateText.g:753:13: '0' .. '9'
             	    {
             	    matchRange('0','9');

             	    }
             	    break;

             	default :
             	    if ( cnt3 >= 1 ) break loop3;
                         EarlyExitException eee =
                             new EarlyExitException(3, input);
                         throw eee;
                 }
                 cnt3++;
             } while (true);


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "RULE_INT"

     // $ANTLR start "RULE_STRING"
     public final void mRULE_STRING() throws RecognitionException {
         try {
             int _type = RULE_STRING;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:755:13: ( ( '\"' ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* '\"' | '\\'' ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* '\\'' ) )
             // InternalBoilerplateText.g:755:15: ( '\"' ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* '\"' | '\\'' ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* '\\'' )
             {
             // InternalBoilerplateText.g:755:15: ( '\"' ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* '\"' | '\\'' ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* '\\'' )
             int alt6=2;
             int LA6_0 = input.LA(1);

             if ( (LA6_0=='\"') ) {
                 alt6=1;
             }
             else if ( (LA6_0=='\'') ) {
                 alt6=2;
             }
             else {
                 NoViableAltException nvae =
                     new NoViableAltException("", 6, 0, input);

                 throw nvae;
             }
             switch (alt6) {
                 case 1 :
                     // InternalBoilerplateText.g:755:16: '\"' ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )* '\"'
                     {
                     match('\"');
                     // InternalBoilerplateText.g:755:20: ( '\\\\' . | ~ ( ( '\\\\' | '\"' ) ) )*
                     loop4:
                     do {
                         int alt4=3;
                         int LA4_0 = input.LA(1);

                         if ( (LA4_0=='\\') ) {
                             alt4=1;
                         }
                         else if ( ((LA4_0>='\u0000' && LA4_0<='!')||(LA4_0>='#' && LA4_0<='[')||(LA4_0>=']' && LA4_0<='\uFFFF')) ) {
                             alt4=2;
                         }


                         switch (alt4) {
                     	case 1 :
                     	    // InternalBoilerplateText.g:755:21: '\\\\' .
                     	    {
                     	    match('\\');
                     	    matchAny();

                     	    }
                     	    break;
                     	case 2 :
                     	    // InternalBoilerplateText.g:755:28: ~ ( ( '\\\\' | '\"' ) )
                     	    {
                     	    if ( (input.LA(1)>='\u0000' && input.LA(1)<='!')||(input.LA(1)>='#' && input.LA(1)<='[')||(input.LA(1)>=']' && input.LA(1)<='\uFFFF') ) {
                     	        input.consume();

                     	    }
                     	    else {
                     	        MismatchedSetException mse = new MismatchedSetException(null,input);
                     	        recover(mse);
                     	        throw mse;}


                     	    }
                     	    break;

                     	default :
                     	    break loop4;
                         }
                     } while (true);

                     match('\"');

                     }
                     break;
                 case 2 :
                     // InternalBoilerplateText.g:755:48: '\\'' ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )* '\\''
                     {
                     match('\'');
                     // InternalBoilerplateText.g:755:53: ( '\\\\' . | ~ ( ( '\\\\' | '\\'' ) ) )*
                     loop5:
                     do {
                         int alt5=3;
                         int LA5_0 = input.LA(1);

                         if ( (LA5_0=='\\') ) {
                             alt5=1;
                         }
                         else if ( ((LA5_0>='\u0000' && LA5_0<='&')||(LA5_0>='(' && LA5_0<='[')||(LA5_0>=']' && LA5_0<='\uFFFF')) ) {
                             alt5=2;
                         }


                         switch (alt5) {
                     	case 1 :
                     	    // InternalBoilerplateText.g:755:54: '\\\\' .
                     	    {
                     	    match('\\');
                     	    matchAny();

                     	    }
                     	    break;
                     	case 2 :
                     	    // InternalBoilerplateText.g:755:61: ~ ( ( '\\\\' | '\\'' ) )
                     	    {
                     	    if ( (input.LA(1)>='\u0000' && input.LA(1)<='&')||(input.LA(1)>='(' && input.LA(1)<='[')||(input.LA(1)>=']' && input.LA(1)<='\uFFFF') ) {
                     	        input.consume();

                     	    }
                     	    else {
                     	        MismatchedSetException mse = new MismatchedSetException(null,input);
                     	        recover(mse);
                     	        throw mse;}


                     	    }
                     	    break;

                     	default :
                     	    break loop5;
                         }
                     } while (true);

                     match('\'');

                     }
                     break;

             }


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "RULE_STRING"

     // $ANTLR start "RULE_ML_COMMENT"
     public final void mRULE_ML_COMMENT() throws RecognitionException {
         try {
             int _type = RULE_ML_COMMENT;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:757:17: ( '/*' ( options {greedy=false; } : . )* '*/' )
             // InternalBoilerplateText.g:757:19: '/*' ( options {greedy=false; } : . )* '*/'
             {
             match("/*");

             // InternalBoilerplateText.g:757:24: ( options {greedy=false; } : . )*
             loop7:
             do {
                 int alt7=2;
                 int LA7_0 = input.LA(1);

                 if ( (LA7_0=='*') ) {
                     int LA7_1 = input.LA(2);

                     if ( (LA7_1=='/') ) {
                         alt7=2;
                     }
                     else if ( ((LA7_1>='\u0000' && LA7_1<='.')||(LA7_1>='0' && LA7_1<='\uFFFF')) ) {
                         alt7=1;
                     }


                 }
                 else if ( ((LA7_0>='\u0000' && LA7_0<=')')||(LA7_0>='+' && LA7_0<='\uFFFF')) ) {
                     alt7=1;
                 }


                 switch (alt7) {
             	case 1 :
             	    // InternalBoilerplateText.g:757:52: .
             	    {
             	    matchAny();

             	    }
             	    break;

             	default :
             	    break loop7;
                 }
             } while (true);

             match("*/");


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "RULE_ML_COMMENT"

     // $ANTLR start "RULE_SL_COMMENT"
     public final void mRULE_SL_COMMENT() throws RecognitionException {
         try {
             int _type = RULE_SL_COMMENT;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:759:17: ( '//' (~ ( ( '\\n' | '\\r' ) ) )* ( ( '\\r' )? '\\n' )? )
             // InternalBoilerplateText.g:759:19: '//' (~ ( ( '\\n' | '\\r' ) ) )* ( ( '\\r' )? '\\n' )?
             {
             match("//");

             // InternalBoilerplateText.g:759:24: (~ ( ( '\\n' | '\\r' ) ) )*
             loop8:
             do {
                 int alt8=2;
                 int LA8_0 = input.LA(1);

                 if ( ((LA8_0>='\u0000' && LA8_0<='\t')||(LA8_0>='\u000B' && LA8_0<='\f')||(LA8_0>='\u000E' && LA8_0<='\uFFFF')) ) {
                     alt8=1;
                 }


                 switch (alt8) {
             	case 1 :
             	    // InternalBoilerplateText.g:759:24: ~ ( ( '\\n' | '\\r' ) )
             	    {
             	    if ( (input.LA(1)>='\u0000' && input.LA(1)<='\t')||(input.LA(1)>='\u000B' && input.LA(1)<='\f')||(input.LA(1)>='\u000E' && input.LA(1)<='\uFFFF') ) {
             	        input.consume();

             	    }
             	    else {
             	        MismatchedSetException mse = new MismatchedSetException(null,input);
             	        recover(mse);
             	        throw mse;}


             	    }
             	    break;

             	default :
             	    break loop8;
                 }
             } while (true);

             // InternalBoilerplateText.g:759:40: ( ( '\\r' )? '\\n' )?
             int alt10=2;
             int LA10_0 = input.LA(1);

             if ( (LA10_0=='\n'||LA10_0=='\r') ) {
                 alt10=1;
             }
             switch (alt10) {
                 case 1 :
                     // InternalBoilerplateText.g:759:41: ( '\\r' )? '\\n'
                     {
                     // InternalBoilerplateText.g:759:41: ( '\\r' )?
                     int alt9=2;
                     int LA9_0 = input.LA(1);

                     if ( (LA9_0=='\r') ) {
                         alt9=1;
                     }
                     switch (alt9) {
                         case 1 :
                             // InternalBoilerplateText.g:759:41: '\\r'
                             {
                             match('\r');

                             }
                             break;

                     }

                     match('\n');

                     }
                     break;

             }


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "RULE_SL_COMMENT"

     // $ANTLR start "RULE_WS"
     public final void mRULE_WS() throws RecognitionException {
         try {
             int _type = RULE_WS;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:761:9: ( ( ' ' | '\\t' | '\\r' | '\\n' )+ )
             // InternalBoilerplateText.g:761:11: ( ' ' | '\\t' | '\\r' | '\\n' )+
             {
             // InternalBoilerplateText.g:761:11: ( ' ' | '\\t' | '\\r' | '\\n' )+
             int cnt11=0;
             loop11:
             do {
                 int alt11=2;
                 int LA11_0 = input.LA(1);

                 if ( ((LA11_0>='\t' && LA11_0<='\n')||LA11_0=='\r'||LA11_0==' ') ) {
                     alt11=1;
                 }


                 switch (alt11) {
             	case 1 :
             	    // InternalBoilerplateText.g:
             	    {
             	    if ( (input.LA(1)>='\t' && input.LA(1)<='\n')||input.LA(1)=='\r'||input.LA(1)==' ' ) {
             	        input.consume();

             	    }
             	    else {
             	        MismatchedSetException mse = new MismatchedSetException(null,input);
             	        recover(mse);
             	        throw mse;}


             	    }
             	    break;

             	default :
             	    if ( cnt11 >= 1 ) break loop11;
                         EarlyExitException eee =
                             new EarlyExitException(11, input);
                         throw eee;
                 }
                 cnt11++;
             } while (true);


             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "RULE_WS"

     // $ANTLR start "RULE_ANY_OTHER"
     public final void mRULE_ANY_OTHER() throws RecognitionException {
         try {
             int _type = RULE_ANY_OTHER;
             int _channel = DEFAULT_TOKEN_CHANNEL;
             // InternalBoilerplateText.g:763:16: ( . )
             // InternalBoilerplateText.g:763:18: .
             {
             matchAny();

             }

             state.type = _type;
             state.channel = _channel;
         }
         finally {
         }
     }
     // $ANTLR end "RULE_ANY_OTHER"

     public void mTokens() throws RecognitionException {
         // InternalBoilerplateText.g:1:8: ( T__11 | T__12 | T__13 | T__14 | T__15 | T__16 | T__17 | T__18 | T__19 | T__20 | RULE_ID | RULE_INT | RULE_STRING | RULE_ML_COMMENT | RULE_SL_COMMENT | RULE_WS | RULE_ANY_OTHER )
         int alt12=17;
         alt12 = dfa12.predict(input);
         switch (alt12) {
             case 1 :
                 // InternalBoilerplateText.g:1:10: T__11
                 {
                 mT__11();

                 }
                 break;
             case 2 :
                 // InternalBoilerplateText.g:1:16: T__12
                 {
                 mT__12();

                 }
                 break;
             case 3 :
                 // InternalBoilerplateText.g:1:22: T__13
                 {
                 mT__13();

                 }
                 break;
             case 4 :
                 // InternalBoilerplateText.g:1:28: T__14
                 {
                 mT__14();

                 }
                 break;
             case 5 :
                 // InternalBoilerplateText.g:1:34: T__15
                 {
                 mT__15();

                 }
                 break;
             case 6 :
                 // InternalBoilerplateText.g:1:40: T__16
                 {
                 mT__16();

                 }
                 break;
             case 7 :
                 // InternalBoilerplateText.g:1:46: T__17
                 {
                 mT__17();

                 }
                 break;
             case 8 :
                 // InternalBoilerplateText.g:1:52: T__18
                 {
                 mT__18();

                 }
                 break;
             case 9 :
                 // InternalBoilerplateText.g:1:58: T__19
                 {
                 mT__19();

                 }
                 break;
             case 10 :
                 // InternalBoilerplateText.g:1:64: T__20
                 {
                 mT__20();

                 }
                 break;
             case 11 :
                 // InternalBoilerplateText.g:1:70: RULE_ID
                 {
                 mRULE_ID();

                 }
                 break;
             case 12 :
                 // InternalBoilerplateText.g:1:78: RULE_INT
                 {
                 mRULE_INT();

                 }
                 break;
             case 13 :
                 // InternalBoilerplateText.g:1:87: RULE_STRING
                 {
                 mRULE_STRING();

                 }
                 break;
             case 14 :
                 // InternalBoilerplateText.g:1:99: RULE_ML_COMMENT
                 {
                 mRULE_ML_COMMENT();

                 }
                 break;
             case 15 :
                 // InternalBoilerplateText.g:1:115: RULE_SL_COMMENT
                 {
                 mRULE_SL_COMMENT();

                 }
                 break;
             case 16 :
                 // InternalBoilerplateText.g:1:131: RULE_WS
                 {
                 mRULE_WS();

                 }
                 break;
             case 17 :
                 // InternalBoilerplateText.g:1:139: RULE_ANY_OTHER
                 {
                 mRULE_ANY_OTHER();

                 }
                 break;

         }

     }


     protected DFA12 dfa12 = new DFA12(this);
     static final String DFA12_eotS =
         "\2\uffff\7\23\1\20\2\uffff\3\20\3\uffff\1\41\1\uffff\6\23\1\50\1\51\6\uffff\1\52\4\23\1\57\3\uffff\1\23\1\61\2\23\1\uffff\1\64\1\uffff\1\65\1\66\3\uffff";
     static final String DFA12_eofS =
         "\67\uffff";
     static final String DFA12_minS =
         "\1\0\1\uffff\1\146\1\142\2\150\2\157\1\145\1\101\2\uffff\2\0\1\52\3\uffff\1\60\1\uffff\1\144\2\154\1\151\1\141\1\164\2\60\6\uffff\1\60\1\157\1\145\2\154\1\60\3\uffff\1\167\1\60\1\145\1\154\1\uffff\1\60\1\uffff\2\60\3\uffff";
     static final String DFA12_maxS =
         "\1\uffff\1\uffff\1\146\1\156\2\150\2\157\1\145\1\172\2\uffff\2\uffff\1\57\3\uffff\1\172\1\uffff\1\144\2\154\1\151\1\141\1\164\2\172\6\uffff\1\172\1\157\1\145\2\154\1\172\3\uffff\1\167\1\172\1\145\1\154\1\uffff\1\172\1\uffff\2\172\3\uffff";
     static final String DFA12_acceptS =
         "\1\uffff\1\1\10\uffff\1\13\1\14\3\uffff\1\20\1\21\1\1\1\uffff\1\13\10\uffff\1\14\1\15\1\16\1\17\1\20\1\2\6\uffff\1\10\1\11\1\3\4\uffff\1\6\1\uffff\1\12\2\uffff\1\7\1\4\1\5";
     static final String DFA12_specialS =
         "\1\0\13\uffff\1\1\1\2\51\uffff}>";
     static final String[] DFA12_transitionS = {
             "\11\20\2\17\2\20\1\17\22\20\1\17\1\20\1\14\4\20\1\15\4\20\1\1\2\20\1\16\12\13\7\20\32\12\3\20\1\11\1\12\1\20\1\3\1\10\6\12\1\2\4\12\1\6\4\12\1\5\1\7\2\12\1\4\3\12\uff85\20",
             "",
             "\1\22",
             "\1\26\11\uffff\1\25\1\uffff\1\24",
             "\1\27",
             "\1\30",
             "\1\31",
             "\1\32",
             "\1\33",
             "\32\23\4\uffff\1\23\1\uffff\32\23",
             "",
             "",
             "\0\35",
             "\0\35",
             "\1\36\4\uffff\1\37",
             "",
             "",
             "",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "",
             "\1\42",
             "\1\43",
             "\1\44",
             "\1\45",
             "\1\46",
             "\1\47",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "",
             "",
             "",
             "",
             "",
             "",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "\1\53",
             "\1\54",
             "\1\55",
             "\1\56",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "",
             "",
             "",
             "\1\60",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "\1\62",
             "\1\63",
             "",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
             "",
             "",
             ""
     };

     static final short[] DFA12_eot = DFA.unpackEncodedString(DFA12_eotS);
     static final short[] DFA12_eof = DFA.unpackEncodedString(DFA12_eofS);
     static final char[] DFA12_min = DFA.unpackEncodedStringToUnsignedChars(DFA12_minS);
     static final char[] DFA12_max = DFA.unpackEncodedStringToUnsignedChars(DFA12_maxS);
     static final short[] DFA12_accept = DFA.unpackEncodedString(DFA12_acceptS);
     static final short[] DFA12_special = DFA.unpackEncodedString(DFA12_specialS);
     static final short[][] DFA12_transition;

     static {
         int numStates = DFA12_transitionS.length;
         DFA12_transition = new short[numStates][];
         for (int i=0; i<numStates; i++) {
             DFA12_transition[i] = DFA.unpackEncodedString(DFA12_transitionS[i]);
         }
     }

     class DFA12 extends DFA {

         public DFA12(BaseRecognizer recognizer) {
             this.recognizer = recognizer;
             this.decisionNumber = 12;
             this.eot = DFA12_eot;
             this.eof = DFA12_eof;
             this.min = DFA12_min;
             this.max = DFA12_max;
             this.accept = DFA12_accept;
             this.special = DFA12_special;
             this.transition = DFA12_transition;
         }
         public String getDescription() {
             return "1:1: Tokens : ( T__11 | T__12 | T__13 | T__14 | T__15 | T__16 | T__17 | T__18 | T__19 | T__20 | RULE_ID | RULE_INT | RULE_STRING | RULE_ML_COMMENT | RULE_SL_COMMENT | RULE_WS | RULE_ANY_OTHER );";
         }
         public int specialStateTransition(int s, IntStream _input) throws NoViableAltException {
             IntStream input = _input;
         	int _s = s;
             switch ( s ) {
                     case 0 :
                         int LA12_0 = input.LA(1);

                         s = -1;
                         if ( (LA12_0==',') ) {s = 1;}

                         else if ( (LA12_0=='i') ) {s = 2;}

                         else if ( (LA12_0=='a') ) {s = 3;}

                         else if ( (LA12_0=='w') ) {s = 4;}

                         else if ( (LA12_0=='s') ) {s = 5;}

                         else if ( (LA12_0=='n') ) {s = 6;}

                         else if ( (LA12_0=='t') ) {s = 7;}

                         else if ( (LA12_0=='b') ) {s = 8;}

                         else if ( (LA12_0=='^') ) {s = 9;}

                         else if ( ((LA12_0>='A' && LA12_0<='Z')||LA12_0=='_'||(LA12_0>='c' && LA12_0<='h')||(LA12_0>='j' && LA12_0<='m')||(LA12_0>='o' && LA12_0<='r')||(LA12_0>='u' && LA12_0<='v')||(LA12_0>='x' && LA12_0<='z')) ) {s = 10;}

                         else if ( ((LA12_0>='0' && LA12_0<='9')) ) {s = 11;}

                         else if ( (LA12_0=='\"') ) {s = 12;}

                         else if ( (LA12_0=='\'') ) {s = 13;}

                         else if ( (LA12_0=='/') ) {s = 14;}

                         else if ( ((LA12_0>='\t' && LA12_0<='\n')||LA12_0=='\r'||LA12_0==' ') ) {s = 15;}

                         else if ( ((LA12_0>='\u0000' && LA12_0<='\b')||(LA12_0>='\u000B' && LA12_0<='\f')||(LA12_0>='\u000E' && LA12_0<='\u001F')||LA12_0=='!'||(LA12_0>='#' && LA12_0<='&')||(LA12_0>='(' && LA12_0<='+')||(LA12_0>='-' && LA12_0<='.')||(LA12_0>=':' && LA12_0<='@')||(LA12_0>='[' && LA12_0<=']')||LA12_0=='`'||(LA12_0>='{' && LA12_0<='\uFFFF')) ) {s = 16;}

                         if ( s>=0 ) return s;
                         break;
                     case 1 :
                         int LA12_12 = input.LA(1);

                         s = -1;
                         if ( ((LA12_12>='\u0000' && LA12_12<='\uFFFF')) ) {s = 29;}

                         else s = 16;

                         if ( s>=0 ) return s;
                         break;
                     case 2 :
                         int LA12_13 = input.LA(1);

                         s = -1;
                         if ( ((LA12_13>='\u0000' && LA12_13<='\uFFFF')) ) {s = 29;}

                         else s = 16;

                         if ( s>=0 ) return s;
                         break;
             }
             NoViableAltException nvae =
                 new NoViableAltException(getDescription(), 12, _s, input);
             error(nvae);
             throw nvae;
         }
     }


 }
	package org.eclipse.papyrus.requirements.sysml14.parser.antlr.internal;

	// Hack: Use our own Lexer superclass by means of import.
	// Currently there is no other way to specify the superclass for the lexer.
	import org.eclipse.xtext.parser.antlr.Lexer;


	import org.antlr.runtime.*;
	import java.util.Stack;
	import java.util.List;
	import java.util.ArrayList;

	@SuppressWarnings("all")
	public class InternalBoilerplateTextLexer extends Lexer {
	public static final int RULE_STRING=4;
	public static final int RULE_SL_COMMENT=8;
	public static final int T__19=19;
	public static final int T__15=15;
	public static final int T__16=16;
	public static final int T__17=17;
	public static final int T__18=18;
	public static final int T__11=11;
	public static final int T__12=12;
	public static final int T__13=13;
	public static final int T__14=14;
	public static final int EOF=-1;
	public static final int RULE_ID=5;
	public static final int RULE_WS=9;
	public static final int RULE_ANY_OTHER=10;
	public static final int RULE_INT=6;
	public static final int RULE_ML_COMMENT=7;
	public static final int T__20=20;

	// delegates
	// delegators

	public InternalBoilerplateTextLexer() {;}
	public InternalBoilerplateTextLexer(CharStream input) {
	this(input, new RecognizerSharedState());
	}
	public InternalBoilerplateTextLexer(CharStream input, RecognizerSharedState state) {
	super(input,state);

	}
	public String getGrammarFileName() { return "InternalBoilerplateText.g"; }

	// $ANTLR start "T__11"
	public final void mT__11() throws RecognitionException {
	try {
	int _type = T__11;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:11:7: ( ',' )
	// InternalBoilerplateText.g:11:9: ','
	{
	match(',');

	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__11"

	// $ANTLR start "T__12"
	public final void mT__12() throws RecognitionException {
	try {
	int _type = T__12;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:12:7: ( 'if' )
	// InternalBoilerplateText.g:12:9: 'if'
	{
	match("if");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__12"

	// $ANTLR start "T__13"
	public final void mT__13() throws RecognitionException {
	try {
	int _type = T__13;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:13:7: ( 'and' )
	// InternalBoilerplateText.g:13:9: 'and'
	{
	match("and");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__13"

	// $ANTLR start "T__14"
	public final void mT__14() throws RecognitionException {
	try {
	int _type = T__14;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:14:7: ( 'while' )
	// InternalBoilerplateText.g:14:9: 'while'
	{
	match("while");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__14"

	// $ANTLR start "T__15"
	public final void mT__15() throws RecognitionException {
	try {
	int _type = T__15;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:15:7: ( 'shall' )
	// InternalBoilerplateText.g:15:9: 'shall'
	{
	match("shall");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__15"

	// $ANTLR start "T__16"
	public final void mT__16() throws RecognitionException {
	try {
	int _type = T__16;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:16:7: ( 'not' )
	// InternalBoilerplateText.g:16:9: 'not'
	{
	match("not");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__16"

	// $ANTLR start "T__17"
	public final void mT__17() throws RecognitionException {
	try {
	int _type = T__17;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:17:7: ( 'allow' )
	// InternalBoilerplateText.g:17:9: 'allow'
	{
	match("allow");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__17"

	// $ANTLR start "T__18"
	public final void mT__18() throws RecognitionException {
	try {
	int _type = T__18;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:18:7: ( 'to' )
	// InternalBoilerplateText.g:18:9: 'to'
	{
	match("to");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__18"

	// $ANTLR start "T__19"
	public final void mT__19() throws RecognitionException {
	try {
	int _type = T__19;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:19:7: ( 'be' )
	// InternalBoilerplateText.g:19:9: 'be'
	{
	match("be");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__19"

	// $ANTLR start "T__20"
	public final void mT__20() throws RecognitionException {
	try {
	int _type = T__20;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:20:7: ( 'able' )
	// InternalBoilerplateText.g:20:9: 'able'
	{
	match("able");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "T__20"

	// $ANTLR start "RULE_ID"
	public final void mRULE_ID() throws RecognitionException {
	try {
	int _type = RULE_ID;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:751:9: ( ( '^' )? ( 'a' .. 'z' \| 'A' .. 'Z' \| '_' ) ( 'a' .. 'z' \| 'A' .. 'Z' \| '_' \| '0' .. '9' )* )
	// InternalBoilerplateText.g:751:11: ( '^' )? ( 'a' .. 'z' \| 'A' .. 'Z' \| '_' ) ( 'a' .. 'z' \| 'A' .. 'Z' \| '_' \| '0' .. '9' )*
	{
	// InternalBoilerplateText.g:751:11: ( '^' )?
	int alt1=2;
	int LA1_0 = input.LA(1);

	if ( (LA1_0=='^') ) {
	alt1=1;
	}
	switch (alt1) {
	case 1 :
	// InternalBoilerplateText.g:751:11: '^'
	{
	match('^');

	}
	break;

	}

	if ( (input.LA(1)>='A' && input.LA(1)<='Z')\|\|input.LA(1)=='_'\|\|(input.LA(1)>='a' && input.LA(1)<='z') ) {
	input.consume();

	}
	else {
	MismatchedSetException mse = new MismatchedSetException(null,input);
	recover(mse);
	throw mse;}

	// InternalBoilerplateText.g:751:40: ( 'a' .. 'z' \| 'A' .. 'Z' \| '_' \| '0' .. '9' )*
	loop2:
	do {
	int alt2=2;
	int LA2_0 = input.LA(1);

	if ( ((LA2_0>='0' && LA2_0<='9')\|\|(LA2_0>='A' && LA2_0<='Z')\|\|LA2_0=='_'\|\|(LA2_0>='a' && LA2_0<='z')) ) {
	alt2=1;
	}


	switch (alt2) {
	case 1 :
	// InternalBoilerplateText.g:
	{
	if ( (input.LA(1)>='0' && input.LA(1)<='9')\|\|(input.LA(1)>='A' && input.LA(1)<='Z')\|\|input.LA(1)=='_'\|\|(input.LA(1)>='a' && input.LA(1)<='z') ) {
	input.consume();

	}
	else {
	MismatchedSetException mse = new MismatchedSetException(null,input);
	recover(mse);
	throw mse;}


	}
	break;

	default :
	break loop2;
	}
	} while (true);


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "RULE_ID"

	// $ANTLR start "RULE_INT"
	public final void mRULE_INT() throws RecognitionException {
	try {
	int _type = RULE_INT;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:753:10: ( ( '0' .. '9' )+ )
	// InternalBoilerplateText.g:753:12: ( '0' .. '9' )+
	{
	// InternalBoilerplateText.g:753:12: ( '0' .. '9' )+
	int cnt3=0;
	loop3:
	do {
	int alt3=2;
	int LA3_0 = input.LA(1);

	if ( ((LA3_0>='0' && LA3_0<='9')) ) {
	alt3=1;
	}


	switch (alt3) {
	case 1 :
	// InternalBoilerplateText.g:753:13: '0' .. '9'
	{
	matchRange('0','9');

	}
	break;

	default :
	if ( cnt3 >= 1 ) break loop3;
	EarlyExitException eee =
	new EarlyExitException(3, input);
	throw eee;
	}
	cnt3++;
	} while (true);


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "RULE_INT"

	// $ANTLR start "RULE_STRING"
	public final void mRULE_STRING() throws RecognitionException {
	try {
	int _type = RULE_STRING;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:755:13: ( ( '\"' ( '\\\\' . \| ~ ( ( '\\\\' \| '\"' ) ) )* '\"' \| '\\'' ( '\\\\' . \| ~ ( ( '\\\\' \| '\\'' ) ) )* '\\'' ) )
	// InternalBoilerplateText.g:755:15: ( '\"' ( '\\\\' . \| ~ ( ( '\\\\' \| '\"' ) ) )* '\"' \| '\\'' ( '\\\\' . \| ~ ( ( '\\\\' \| '\\'' ) ) )* '\\'' )
	{
	// InternalBoilerplateText.g:755:15: ( '\"' ( '\\\\' . \| ~ ( ( '\\\\' \| '\"' ) ) )* '\"' \| '\\'' ( '\\\\' . \| ~ ( ( '\\\\' \| '\\'' ) ) )* '\\'' )
	int alt6=2;
	int LA6_0 = input.LA(1);

	if ( (LA6_0=='\"') ) {
	alt6=1;
	}
	else if ( (LA6_0=='\'') ) {
	alt6=2;
	}
	else {
	NoViableAltException nvae =
	new NoViableAltException("", 6, 0, input);

	throw nvae;
	}
	switch (alt6) {
	case 1 :
	// InternalBoilerplateText.g:755:16: '\"' ( '\\\\' . \| ~ ( ( '\\\\' \| '\"' ) ) )* '\"'
	{
	match('\"');
	// InternalBoilerplateText.g:755:20: ( '\\\\' . \| ~ ( ( '\\\\' \| '\"' ) ) )*
	loop4:
	do {
	int alt4=3;
	int LA4_0 = input.LA(1);

	if ( (LA4_0=='\\') ) {
	alt4=1;
	}
	else if ( ((LA4_0>='\u0000' && LA4_0<='!')\|\|(LA4_0>='#' && LA4_0<='[')\|\|(LA4_0>=']' && LA4_0<='\uFFFF')) ) {
	alt4=2;
	}


	switch (alt4) {
	case 1 :
	// InternalBoilerplateText.g:755:21: '\\\\' .
	{
	match('\\');
	matchAny();

	}
	break;
	case 2 :
	// InternalBoilerplateText.g:755:28: ~ ( ( '\\\\' \| '\"' ) )
	{
	if ( (input.LA(1)>='\u0000' && input.LA(1)<='!')\|\|(input.LA(1)>='#' && input.LA(1)<='[')\|\|(input.LA(1)>=']' && input.LA(1)<='\uFFFF') ) {
	input.consume();

	}
	else {
	MismatchedSetException mse = new MismatchedSetException(null,input);
	recover(mse);
	throw mse;}


	}
	break;

	default :
	break loop4;
	}
	} while (true);

	match('\"');

	}
	break;
	case 2 :
	// InternalBoilerplateText.g:755:48: '\\'' ( '\\\\' . \| ~ ( ( '\\\\' \| '\\'' ) ) )* '\\''
	{
	match('\'');
	// InternalBoilerplateText.g:755:53: ( '\\\\' . \| ~ ( ( '\\\\' \| '\\'' ) ) )*
	loop5:
	do {
	int alt5=3;
	int LA5_0 = input.LA(1);

	if ( (LA5_0=='\\') ) {
	alt5=1;
	}
	else if ( ((LA5_0>='\u0000' && LA5_0<='&')\|\|(LA5_0>='(' && LA5_0<='[')\|\|(LA5_0>=']' && LA5_0<='\uFFFF')) ) {
	alt5=2;
	}


	switch (alt5) {
	case 1 :
	// InternalBoilerplateText.g:755:54: '\\\\' .
	{
	match('\\');
	matchAny();

	}
	break;
	case 2 :
	// InternalBoilerplateText.g:755:61: ~ ( ( '\\\\' \| '\\'' ) )
	{
	if ( (input.LA(1)>='\u0000' && input.LA(1)<='&')\|\|(input.LA(1)>='(' && input.LA(1)<='[')\|\|(input.LA(1)>=']' && input.LA(1)<='\uFFFF') ) {
	input.consume();

	}
	else {
	MismatchedSetException mse = new MismatchedSetException(null,input);
	recover(mse);
	throw mse;}


	}
	break;

	default :
	break loop5;
	}
	} while (true);

	match('\'');

	}
	break;

	}


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "RULE_STRING"

	// $ANTLR start "RULE_ML_COMMENT"
	public final void mRULE_ML_COMMENT() throws RecognitionException {
	try {
	int _type = RULE_ML_COMMENT;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:757:17: ( '/' ( options {greedy=false; } : . ) '*/' )
	// InternalBoilerplateText.g:757:19: '/' ( options {greedy=false; } : . ) '*/'
	{
	match("/*");

	// InternalBoilerplateText.g:757:24: ( options {greedy=false; } : . )*
	loop7:
	do {
	int alt7=2;
	int LA7_0 = input.LA(1);

	if ( (LA7_0=='*') ) {
	int LA7_1 = input.LA(2);

	if ( (LA7_1=='/') ) {
	alt7=2;
	}
	else if ( ((LA7_1>='\u0000' && LA7_1<='.')\|\|(LA7_1>='0' && LA7_1<='\uFFFF')) ) {
	alt7=1;
	}


	}
	else if ( ((LA7_0>='\u0000' && LA7_0<=')')\|\|(LA7_0>='+' && LA7_0<='\uFFFF')) ) {
	alt7=1;
	}


	switch (alt7) {
	case 1 :
	// InternalBoilerplateText.g:757:52: .
	{
	matchAny();

	}
	break;

	default :
	break loop7;
	}
	} while (true);

	match("*/");


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "RULE_ML_COMMENT"

	// $ANTLR start "RULE_SL_COMMENT"
	public final void mRULE_SL_COMMENT() throws RecognitionException {
	try {
	int _type = RULE_SL_COMMENT;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:759:17: ( '//' (~ ( ( '\\n' \| '\\r' ) ) )* ( ( '\\r' )? '\\n' )? )
	// InternalBoilerplateText.g:759:19: '//' (~ ( ( '\\n' \| '\\r' ) ) )* ( ( '\\r' )? '\\n' )?
	{
	match("//");

	// InternalBoilerplateText.g:759:24: (~ ( ( '\\n' \| '\\r' ) ) )*
	loop8:
	do {
	int alt8=2;
	int LA8_0 = input.LA(1);

	if ( ((LA8_0>='\u0000' && LA8_0<='\t')\|\|(LA8_0>='\u000B' && LA8_0<='\f')\|\|(LA8_0>='\u000E' && LA8_0<='\uFFFF')) ) {
	alt8=1;
	}


	switch (alt8) {
	case 1 :
	// InternalBoilerplateText.g:759:24: ~ ( ( '\\n' \| '\\r' ) )
	{
	if ( (input.LA(1)>='\u0000' && input.LA(1)<='\t')\|\|(input.LA(1)>='\u000B' && input.LA(1)<='\f')\|\|(input.LA(1)>='\u000E' && input.LA(1)<='\uFFFF') ) {
	input.consume();

	}
	else {
	MismatchedSetException mse = new MismatchedSetException(null,input);
	recover(mse);
	throw mse;}


	}
	break;

	default :
	break loop8;
	}
	} while (true);

	// InternalBoilerplateText.g:759:40: ( ( '\\r' )? '\\n' )?
	int alt10=2;
	int LA10_0 = input.LA(1);

	if ( (LA10_0=='\n'\|\|LA10_0=='\r') ) {
	alt10=1;
	}
	switch (alt10) {
	case 1 :
	// InternalBoilerplateText.g:759:41: ( '\\r' )? '\\n'
	{
	// InternalBoilerplateText.g:759:41: ( '\\r' )?
	int alt9=2;
	int LA9_0 = input.LA(1);

	if ( (LA9_0=='\r') ) {
	alt9=1;
	}
	switch (alt9) {
	case 1 :
	// InternalBoilerplateText.g:759:41: '\\r'
	{
	match('\r');

	}
	break;

	}

	match('\n');

	}
	break;

	}


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "RULE_SL_COMMENT"

	// $ANTLR start "RULE_WS"
	public final void mRULE_WS() throws RecognitionException {
	try {
	int _type = RULE_WS;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:761:9: ( ( ' ' \| '\\t' \| '\\r' \| '\\n' )+ )
	// InternalBoilerplateText.g:761:11: ( ' ' \| '\\t' \| '\\r' \| '\\n' )+
	{
	// InternalBoilerplateText.g:761:11: ( ' ' \| '\\t' \| '\\r' \| '\\n' )+
	int cnt11=0;
	loop11:
	do {
	int alt11=2;
	int LA11_0 = input.LA(1);

	if ( ((LA11_0>='\t' && LA11_0<='\n')\|\|LA11_0=='\r'\|\|LA11_0==' ') ) {
	alt11=1;
	}


	switch (alt11) {
	case 1 :
	// InternalBoilerplateText.g:
	{
	if ( (input.LA(1)>='\t' && input.LA(1)<='\n')\|\|input.LA(1)=='\r'\|\|input.LA(1)==' ' ) {
	input.consume();

	}
	else {
	MismatchedSetException mse = new MismatchedSetException(null,input);
	recover(mse);
	throw mse;}


	}
	break;

	default :
	if ( cnt11 >= 1 ) break loop11;
	EarlyExitException eee =
	new EarlyExitException(11, input);
	throw eee;
	}
	cnt11++;
	} while (true);


	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "RULE_WS"

	// $ANTLR start "RULE_ANY_OTHER"
	public final void mRULE_ANY_OTHER() throws RecognitionException {
	try {
	int _type = RULE_ANY_OTHER;
	int _channel = DEFAULT_TOKEN_CHANNEL;
	// InternalBoilerplateText.g:763:16: ( . )
	// InternalBoilerplateText.g:763:18: .
	{
	matchAny();

	}

	state.type = _type;
	state.channel = _channel;
	}
	finally {
	}
	}
	// $ANTLR end "RULE_ANY_OTHER"

	public void mTokens() throws RecognitionException {
	// InternalBoilerplateText.g:1:8: ( T__11 \| T__12 \| T__13 \| T__14 \| T__15 \| T__16 \| T__17 \| T__18 \| T__19 \| T__20 \| RULE_ID \| RULE_INT \| RULE_STRING \| RULE_ML_COMMENT \| RULE_SL_COMMENT \| RULE_WS \| RULE_ANY_OTHER )
	int alt12=17;
	alt12 = dfa12.predict(input);
	switch (alt12) {
	case 1 :
	// InternalBoilerplateText.g:1:10: T__11
	{
	mT__11();

	}
	break;
	case 2 :
	// InternalBoilerplateText.g:1:16: T__12
	{
	mT__12();

	}
	break;
	case 3 :
	// InternalBoilerplateText.g:1:22: T__13
	{
	mT__13();

	}
	break;
	case 4 :
	// InternalBoilerplateText.g:1:28: T__14
	{
	mT__14();

	}
	break;
	case 5 :
	// InternalBoilerplateText.g:1:34: T__15
	{
	mT__15();

	}
	break;
	case 6 :
	// InternalBoilerplateText.g:1:40: T__16
	{
	mT__16();

	}
	break;
	case 7 :
	// InternalBoilerplateText.g:1:46: T__17
	{
	mT__17();

	}
	break;
	case 8 :
	// InternalBoilerplateText.g:1:52: T__18
	{
	mT__18();

	}
	break;
	case 9 :
	// InternalBoilerplateText.g:1:58: T__19
	{
	mT__19();

	}
	break;
	case 10 :
	// InternalBoilerplateText.g:1:64: T__20
	{
	mT__20();

	}
	break;
	case 11 :
	// InternalBoilerplateText.g:1:70: RULE_ID
	{
	mRULE_ID();

	}
	break;
	case 12 :
	// InternalBoilerplateText.g:1:78: RULE_INT
	{
	mRULE_INT();

	}
	break;
	case 13 :
	// InternalBoilerplateText.g:1:87: RULE_STRING
	{
	mRULE_STRING();

	}
	break;
	case 14 :
	// InternalBoilerplateText.g:1:99: RULE_ML_COMMENT
	{
	mRULE_ML_COMMENT();

	}
	break;
	case 15 :
	// InternalBoilerplateText.g:1:115: RULE_SL_COMMENT
	{
	mRULE_SL_COMMENT();

	}
	break;
	case 16 :
	// InternalBoilerplateText.g:1:131: RULE_WS
	{
	mRULE_WS();

	}
	break;
	case 17 :
	// InternalBoilerplateText.g:1:139: RULE_ANY_OTHER
	{
	mRULE_ANY_OTHER();

	}
	break;

	}

	}


	protected DFA12 dfa12 = new DFA12(this);
	static final String DFA12_eotS =
	"\2\uffff\7\23\1\20\2\uffff\3\20\3\uffff\1\41\1\uffff\6\23\1\50\1\51\6\uffff\1\52\4\23\1\57\3\uffff\1\23\1\61\2\23\1\uffff\1\64\1\uffff\1\65\1\66\3\uffff";
	static final String DFA12_eofS =
	"\67\uffff";
	static final String DFA12_minS =
	"\1\0\1\uffff\1\146\1\142\2\150\2\157\1\145\1\101\2\uffff\2\0\1\52\3\uffff\1\60\1\uffff\1\144\2\154\1\151\1\141\1\164\2\60\6\uffff\1\60\1\157\1\145\2\154\1\60\3\uffff\1\167\1\60\1\145\1\154\1\uffff\1\60\1\uffff\2\60\3\uffff";
	static final String DFA12_maxS =
	"\1\uffff\1\uffff\1\146\1\156\2\150\2\157\1\145\1\172\2\uffff\2\uffff\1\57\3\uffff\1\172\1\uffff\1\144\2\154\1\151\1\141\1\164\2\172\6\uffff\1\172\1\157\1\145\2\154\1\172\3\uffff\1\167\1\172\1\145\1\154\1\uffff\1\172\1\uffff\2\172\3\uffff";
	static final String DFA12_acceptS =
	"\1\uffff\1\1\10\uffff\1\13\1\14\3\uffff\1\20\1\21\1\1\1\uffff\1\13\10\uffff\1\14\1\15\1\16\1\17\1\20\1\2\6\uffff\1\10\1\11\1\3\4\uffff\1\6\1\uffff\1\12\2\uffff\1\7\1\4\1\5";
	static final String DFA12_specialS =
	"\1\0\13\uffff\1\1\1\2\51\uffff}>";
	static final String[] DFA12_transitionS = {
	"\11\20\2\17\2\20\1\17\22\20\1\17\1\20\1\14\4\20\1\15\4\20\1\1\2\20\1\16\12\13\7\20\32\12\3\20\1\11\1\12\1\20\1\3\1\10\6\12\1\2\4\12\1\6\4\12\1\5\1\7\2\12\1\4\3\12\uff85\20",
	"",
	"\1\22",
	"\1\26\11\uffff\1\25\1\uffff\1\24",
	"\1\27",
	"\1\30",
	"\1\31",
	"\1\32",
	"\1\33",
	"\32\23\4\uffff\1\23\1\uffff\32\23",
	"",
	"",
	"\0\35",
	"\0\35",
	"\1\36\4\uffff\1\37",
	"",
	"",
	"",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"",
	"\1\42",
	"\1\43",
	"\1\44",
	"\1\45",
	"\1\46",
	"\1\47",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"",
	"",
	"",
	"",
	"",
	"",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"\1\53",
	"\1\54",
	"\1\55",
	"\1\56",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"",
	"",
	"",
	"\1\60",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"\1\62",
	"\1\63",
	"",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"\12\23\7\uffff\32\23\4\uffff\1\23\1\uffff\32\23",
	"",
	"",
	""
	};

	static final short[] DFA12_eot = DFA.unpackEncodedString(DFA12_eotS);
	static final short[] DFA12_eof = DFA.unpackEncodedString(DFA12_eofS);
	static final char[] DFA12_min = DFA.unpackEncodedStringToUnsignedChars(DFA12_minS);
	static final char[] DFA12_max = DFA.unpackEncodedStringToUnsignedChars(DFA12_maxS);
	static final short[] DFA12_accept = DFA.unpackEncodedString(DFA12_acceptS);
	static final short[] DFA12_special = DFA.unpackEncodedString(DFA12_specialS);
	static final short[][] DFA12_transition;

	static {
	int numStates = DFA12_transitionS.length;
	DFA12_transition = new short[numStates][];
	for (int i=0; i<numStates; i++) {
	DFA12_transition[i] = DFA.unpackEncodedString(DFA12_transitionS[i]);
	}
	}

	class DFA12 extends DFA {

	public DFA12(BaseRecognizer recognizer) {
	this.recognizer = recognizer;
	this.decisionNumber = 12;
	this.eot = DFA12_eot;
	this.eof = DFA12_eof;
	this.min = DFA12_min;
	this.max = DFA12_max;
	this.accept = DFA12_accept;
	this.special = DFA12_special;
	this.transition = DFA12_transition;
	}
	public String getDescription() {
	return "1:1: Tokens : ( T__11 \| T__12 \| T__13 \| T__14 \| T__15 \| T__16 \| T__17 \| T__18 \| T__19 \| T__20 \| RULE_ID \| RULE_INT \| RULE_STRING \| RULE_ML_COMMENT \| RULE_SL_COMMENT \| RULE_WS \| RULE_ANY_OTHER );";
	}
	public int specialStateTransition(int s, IntStream _input) throws NoViableAltException {
	IntStream input = _input;
	int _s = s;
	switch ( s ) {
	case 0 :
	int LA12_0 = input.LA(1);

	s = -1;
	if ( (LA12_0==',') ) {s = 1;}

	else if ( (LA12_0=='i') ) {s = 2;}

	else if ( (LA12_0=='a') ) {s = 3;}

	else if ( (LA12_0=='w') ) {s = 4;}

	else if ( (LA12_0=='s') ) {s = 5;}

	else if ( (LA12_0=='n') ) {s = 6;}

	else if ( (LA12_0=='t') ) {s = 7;}

	else if ( (LA12_0=='b') ) {s = 8;}

	else if ( (LA12_0=='^') ) {s = 9;}

	else if ( ((LA12_0>='A' && LA12_0<='Z')\|\|LA12_0=='_'\|\|(LA12_0>='c' && LA12_0<='h')\|\|(LA12_0>='j' && LA12_0<='m')\|\|(LA12_0>='o' && LA12_0<='r')\|\|(LA12_0>='u' && LA12_0<='v')\|\|(LA12_0>='x' && LA12_0<='z')) ) {s = 10;}

	else if ( ((LA12_0>='0' && LA12_0<='9')) ) {s = 11;}

	else if ( (LA12_0=='\"') ) {s = 12;}

	else if ( (LA12_0=='\'') ) {s = 13;}

	else if ( (LA12_0=='/') ) {s = 14;}

	else if ( ((LA12_0>='\t' && LA12_0<='\n')\|\|LA12_0=='\r'\|\|LA12_0==' ') ) {s = 15;}

	else if ( ((LA12_0>='\u0000' && LA12_0<='\b')\|\|(LA12_0>='\u000B' && LA12_0<='\f')\|\|(LA12_0>='\u000E' && LA12_0<='\u001F')\|\|LA12_0=='!'\|\|(LA12_0>='#' && LA12_0<='&')\|\|(LA12_0>='(' && LA12_0<='+')\|\|(LA12_0>='-' && LA12_0<='.')\|\|(LA12_0>=':' && LA12_0<='@')\|\|(LA12_0>='[' && LA12_0<=']')\|\|LA12_0=='`'\|\|(LA12_0>='{' && LA12_0<='\uFFFF')) ) {s = 16;}

	if ( s>=0 ) return s;
	break;
	case 1 :
	int LA12_12 = input.LA(1);

	s = -1;
	if ( ((LA12_12>='\u0000' && LA12_12<='\uFFFF')) ) {s = 29;}

	else s = 16;

	if ( s>=0 ) return s;
	break;
	case 2 :
	int LA12_13 = input.LA(1);

	s = -1;
	if ( ((LA12_13>='\u0000' && LA12_13<='\uFFFF')) ) {s = 29;}

	else s = 16;

	if ( s>=0 ) return s;
	break;
	}
	NoViableAltException nvae =
	new NoViableAltException(getDescription(), 12, _s, input);
	error(nvae);
	throw nvae;
	}
	}


	}